QTM: computational package using MPI protocol for quantum trajectories method

TL;DR

This paper introduces a parallelized C++ package for the Quantum Trajectories Method using MPI, significantly improving computational efficiency for simulating open quantum systems.

Contribution

The paper presents a new MPI-supported C++ package for QTM that enhances performance and ease of use over existing solutions.

Findings

Parallel computation reduces calculation time

MPI implementation improves scalability and performance

The package is user-friendly despite being high-performance

Abstract

The Quantum Trajectories Method (QTM) is one of {the} frequently used methods for studying open quantum systems. { The main idea of this method is {the} evolution of wave functions which {describe the system (as functions of time). Then,} so-called quantum jumps are applied at {a} randomly selected point in time. {The} obtained system state is called as a trajectory. After averaging many single trajectories{,} we obtain the approximation of the behavior of {a} quantum system.} {This fact also allows} us to use parallel computation methods. In the article{,} we discuss the QTM package which is supported by the MPI technology. Using MPI allowed {utilizing} the parallel computing for calculating the trajectories and averaging them -- as the effect of these actions{,} the time {taken by} calculations is shorter. In spite of using the C++ programming language, the presented solution is easy to utilize and does not need any advanced programming techniques. At the same time{,} it offers a higher performance than other packages realizing the QTM. It is especially important in the case of harder computational tasks{,} and the use of MPI allows {improving the} performance of particular problems which can be solved in the field of open quantum systems.